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Impact of Anchoring Groups on Ballistic Transport: Single Molecule vs Monolayer Junctions

Author(s):

Veronika Obersteiner, David A. Egger, Egbert Zojer

Journal:

The Journal of Physical Chemistry C

Year:

2015

Volume:

119

Pages

21198–2120

DOI:

10.1021/acs.jpcc.5b06110

Abstract:

Tuning the transport properties of molecular junctions by chemically modifying the molecular structure is one of the key challenges for advancing the field of molecular electronics. In the present contribution, we investigate current−voltage characteristics of differently linked metal− molecule−metal systems that comprise either a single molecule or a molecular assembly. This is achieved by employing density functional theory in conjunction with a Green’s function approach. We show that the conductance of a molecular system with a specific anchoring group is fundamentally different depending on whether a single molecule or a continuous monolayer forms the junction. This is a consequence of collective electrostatic effects that arise from dipolar elements contained in the monolayer and from interfacial charge rearrangements. As a consequence of these collective effects, the “ideal” choice for an anchoring group is clearly different for monolayer and single molecule devices. A particularly striking effect is observed for pyridine-docked systems. These are subject to Fermi-level pinning at high molecular packing densities, causing an abrupt increase of the junction current already at small voltages.

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